.BuildSysPro.IBPSA.Fluid.HeatExchangers.BaseClasses .BuildSysPro.IBPSA.Fluid.HeatExchangers.BaseClassesThis package contains base classes that are used to construct the models in IBPSA.Fluid.HeatExchangers.
| Name | Description |
|---|---|
 HACoilInside | Calculates the hA value for water inside a coil |
 HADryCoil | Sensible convective heat transfer model for air to water coil |
 HANaturalCylinder | Calculates an hA value for natural convection around a cylinder |
 PartialEffectiveness | Partial model to implement heat exchangers based on effectiveness model |
 PartialEffectivenessNTU | Partial model for heat exchanger with effectiveness - NTU relation and no moisture condensation |
 PartialPrescribedOutlet | Ideal heater, cooler, humidifier or dehumidifier with prescribed outlet conditions |
 WetCoilDryRegime | Fully dry coil model |
 WetCoilDryWetRegime | Model implementing the switching algorithm of the TK-fuzzy model for cooling coil application |
 WetCoilUARated | Model that calculates the UA-value from cooling coil data at rated conditions. |
 WetCoilWetRegime | Fully wet coil model using esilon_C.mo function |
 determineWaterIndex | Determine the index of water in a 2-component medium model |
 dynamicViscosityWater | Returns the dynamic viscosity for water |
 epsilon_C | Computes heat exchanger effectiveness for given capacity flow rates and heat exchanger flow regime |
 epsilon_ntuZ | Computes heat exchanger effectiveness for given number of transfer units and heat exchanger flow regime |
 isobaricExpansionCoefficientWater | Returns the isobaric expansion coefficient for water |
 lmtd | Log-mean temperature difference |
 ntu_epsilonZ | Computes number of transfer units for given heat exchanger effectiveness and heat exchanger flow regime |
 prandtlNumberWater | Returns the Prandtl number for water |
 Examples | Collection of models that illustrate model use and test models |